KR20020086657A - Data communication device and data communication method - Google Patents

Abstract

In the case where a plurality of nodes determine the communication speed prior to the point-to-point communication, the communication speed of the slave node 1 in order to alleviate the difference in throughput between the node for which the high speed communication speed is determined and the node for which the low speed communication speed is determined. The recording unit 11 records the best communication speed (maximum communication speed) of the slave node 1, and the communication speed setting unit 12 determines the communication speed with the master node at the start of data transmission. In addition, based on the communication speed determined as the maximum communication speed, a control communication speed equal to or less than the determined communication speed is set, and the communication speed control unit 13 does not exceed the control communication speed set by the communication speed setting unit 12. The retention buffer 14 is used to control the communication speed.

Description

DATA COMMUNICATION DEVICE AND DATA COMMUNICATION METHOD}

1 and 2 are conceptual diagrams of a conventional communication system conforming to the IEEE802.11b standard disclosed in, for example, the September 2000 issue of Nikkei Network.

Fig. 1 shows a connection form of a node as seen from the transmission path, and Fig. 2 shows a connection form of a logical node mainly looking at the flow of data during communication.

In the drawings, reference numerals 1a to 1c denote slave nodes, reference numeral 2 denotes master nodes, and reference numeral 3 denotes communication that can be used under conditions such as positional relations between terminals such as wireless LAN and light line communication. An unstable transmission line with varying speeds.

Next, the operation will be described.

Each slave node 1a to 1c sets a communication speed with the master node 2 prior to communication.

The communication speed is usually determined according to the characteristics of the transmission path 3 between the nodes, the distance between the nodes, the obstacles between the nodes, and the like.

The data coming out of the slave node is always sent through the master node regardless of its destination, and is sent to the master node at the communication rate determined first.

In the conventional communication system, since the communication speed between each slave node and the master node is not constant, a difference occurs in the throughput that each slave node can accept, and thus there is a problem that the fairness of band sharing is lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to equally share a band by reducing a difference in throughput that each node having a different communication speed encounters.

<Start of invention>

Data communication apparatus according to the present invention,

A data communication device for performing data transmission to a relay device,

A communication speed recorder for recording a specific communication speed thereof;

The communication speed used for data transmission to the relay device is determined between the relay device and the communication speed used for the data transmission to the relay device, and the specified communication speed and the relay device recorded in the communication speed recording unit. A communication speed setting unit that calculates a new communication speed equal to or less than the determined communication speed based on the determined communication speed determined between the communication speeds and sets the calculated new communication speed as the control communication speed;

And a communication speed control unit for controlling the communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting unit. do.

The communication rate setting unit calculates the control communication rate based on a value obtained by dividing the specific communication rate by the determined communication rate.

The communication speed recording unit,

As the specific communication speed, record its maximum communication speed,

The communication speed setting unit,

And the control communication rate is calculated based on the determined communication rate determined between the maximum communication rate recorded in the communication rate recording unit and the relay device.

Data communication apparatus according to the present invention,

A data communication device for performing data transmission to a relay device,

A numerical value relating to the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting unit for receiving information from the relay device, calculating a new communication speed equal to or less than the determined communication speed based on the numerical information received from the relay device, and setting the calculated new communication speed as a control communication speed Wow,

And a communication speed control unit for controlling the communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting unit. do.

The relay device determines a communication speed used for data transmission between a plurality of data communication devices,

The communication speed setting unit of each data communication device is

Receiving, as the numerical information, speed level information indicating a speed level of the own determined communication speed with respect to the determined communication speed of another data communication device, and calculating the control communication speed based on the received speed level information. It is done.

Data communication apparatus according to the present invention,

A data communication device for performing data transmission to a relay device and reserving data transmission in a certain case and retransmitting the data pending transmission after a predetermined retransmission waiting time has elapsed.

A communication speed recorder for recording a specific communication speed thereof;

A communication speed setting unit for determining, with the relay device, a communication speed used for data transmission to the relay device before starting data transmission to the relay device;

And a retransmission waiting time setting unit for setting the retransmission waiting time based on the specific communication speed recorded in the communication speed recording unit and the determined communication speed determined by the communication speed setting unit.

The retransmission waiting time setting unit may set the retransmission waiting time based on a value obtained by dividing the specific communication speed by the determined communication speed.

The communication speed recording unit,

As the specific communication speed, record its maximum communication speed,

The retransmission waiting time setting unit,

And the retransmission waiting time is set based on the maximum communication speed recorded in the communication speed recording unit and the determined communication speed determined between the relay device.

Data communication apparatus according to the present invention,

A data communication device for performing data transmission to a relay device and reserving data transmission in a certain case and retransmitting the data pending transmission after a predetermined retransmission waiting time has elapsed.

Numerical information about the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. Communication speed setting unit for receiving from the relay device,

And a retransmission waiting time setting unit for setting the retransmission waiting time based on the numerical information received by the communication speed setting unit.

The relay device determines a communication speed used for data transmission between a plurality of data communication devices,

The communication speed setting unit of each data communication device is

Receiving, as the numerical information, speed level information indicating a speed level of the determined communication speed of the other data communication device against the determined communication speed,

The retransmission waiting time setting unit of each data communication device is

The retransmission waiting time is set based on the speed level information received by the communication speed setting unit.

Data communication apparatus according to the present invention,

A data communication method for performing data transmission to a relay device,

A communication speed recording step of recording a specific communication speed thereof;

The communication speed used for data transmission to the relay device is determined between the relay device and the specific communication speed recorded by the communication speed recording step before the data transmission to the relay device starts. A communication rate setting step of calculating a new communication rate equal to or less than the determined communication rate based on the determined communication rate determined between the relay apparatus and setting the calculated new communication rate as the control communication rate;

And a communication speed control step of controlling a communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting step. It is done.

Data communication apparatus according to the present invention,

A data communication method for performing data transmission to a relay device,

A numerical value relating to the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting step of receiving information from the relay device, calculating a new communication speed equal to or less than the determined communication speed based on the numerical information received from the relay device, and setting the calculated new communication speed as a control communication speed. Wow,

And a communication speed control step of controlling a communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting step. It is done.

Data communication apparatus according to the present invention,

A data communication method of performing data transmission to a relay device, and reserving data transmission in a certain case and retransmitting the data pending transmission after a predetermined retransmission waiting time has elapsed.

A communication speed recording step of recording a specific communication speed thereof;

A communication rate setting step of determining, with the relay apparatus, a communication rate to be used for data transmission to the relay apparatus before starting data transmission to the relay apparatus;

And a retransmission waiting time setting step of setting the retransmission waiting time based on the specific communication speed recorded by the communication speed recording step and the determined communication speed determined by the communication speed setting step.

Data communication apparatus according to the present invention,

A data communication method of performing data transmission to a relay device, and reserving data transmission in a certain case and retransmitting the data pending transmission after a predetermined retransmission waiting time has elapsed.

Numerical information about the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting step of receiving a message from the relay device;

And a retransmission waiting time setting step of setting the retransmission waiting time based on the numerical information received by the communication speed setting step.

The present invention relates to a communication technology for sharing a band evenly by reducing a difference in throughput of each terminal even when communication terminals sharing the same band communicate using different communication speeds.

1 is a block diagram illustrating a communication system including a slave node according to an embodiment of the present invention.

2 is a block diagram illustrating a communication system including a slave node according to an embodiment of the present invention.

3 is a processing flow during data transmission of a slave node used in the first and second embodiments of the present invention.

Fig. 4 is a processing flow in the master node at the time of determining the communication speed between the mask node and the slave node used in the second and fourth embodiments of the present invention.

5 is a diagram illustrating a configuration of a slave node.

6 is a diagram illustrating a configuration of a slave node.

<The best form to perform invention>

<First Embodiment>

1 and 2 are configuration diagrams of a communication system according to the present invention as described in the prior art. That is, reference numeral 1 denotes a slave node which is a data communication device, reference numeral 2 denotes a master node which is a relay device, and reference numeral 3 denotes a transmission path for connecting the slave node 1 and the master node 2. to be.

5 is a diagram showing the configuration of the slave node 1 according to the first embodiment.

In Fig. 5, reference numeral 11 is a communication speed recorder which records the best communication speed (maximum communication speed) of the slave node derived from the specification of the transmission path. The reference numeral 12 determines a communication speed with the master node at the start of communication, and sets a communication speed that sets a control communication speed below the determined communication speed based on the maximum communication speed and the determined communication speed. It is wealth. Also, reference numeral 13 is a communication speed control unit that controls the communication speed so as not to exceed the control communication speed set by the communication speed setting unit 12. Reference numeral 14 is a retention buffer arranged in the communication speed control unit 13 to temporarily hold the data and adjust the flow rate of the data.

Next, the operation will be described.

First, the communication speed setting unit 12 of the slave node 1 determines the communication speed in accordance with the situation of the communication path with the master node at the start of communication.

Thereafter, the communication speed setting unit 12 calculates the limited communication speed based on the following equation (1) from the determined communication speed.

Here, the best communication speed means the maximum communication speed recorded in the communication speed recording unit 11, and the actual communication speed is the communication speed determined by the communication speed setting unit 12 with the master node 2.

Also, f (x) is a monotonically increasing function. For this reason, the larger the actual communication speed, the smaller the limited communication speed.

The processing at the time of actual data transmission after the control communication speed is set through the above processing is performed as shown in FIG.

First, the communication speed control unit 13 checks whether the limit communication speed per unit time immediately before is transmitted by transmitting the data (S21).

Next, when exceeding the limit communication speed, the communication speed control part 13 waits for transmission for a fixed time (S22), and performs the process of S21 after that.

The wait processing of S22 is performed by the retention buffer 14 temporarily storing data. By doing in this way, the flow volume of data is suppressed and a communication speed can be adjusted below a control communication speed.

On the other hand, if the limited communication speed is not exceeded, data is transmitted and terminated (S23).

By suppressing the transmission amount of the high speed terminal as described above, it is possible to increase the transmission opportunity of the low speed terminal sharing the same band and reduce the difference in throughput between the terminals.

<2nd Example>

In the first embodiment described above, the flow rate limit value is calculated from the ratio with the ideal speed (maximum communication speed) of the communication path, but the flow rate limit is performed in consideration of the communication speeds of all slave nodes connected to the master node. For example.

The system configuration according to the present embodiment is the same as that of the first embodiment, and has the configuration shown in FIGS. 1 and 2.

In addition, the configuration of the slave node 1 also has the configuration shown in FIG. 5 as in the first embodiment.

3 is a processing flow at the time of transmission of the same slave node as in the first embodiment, and FIG. 4 is a processing flow at the time of determining the communication speed that the master node performs with the slave node.

Next, the operation will be described.

In determining the communication speed, the slave node 1 performs the operation of the flow of FIG.

First, the communication speed setting unit 12 of the slave node 1 determines the communication speed with the master node 2 (S31). Next, the communication speed setting unit 12 provides the master node 2 with speed level information that notifies the communication speed of its slave node among the communication speeds of the slave nodes determined by the master node 2. (S32).

Next, the communication speed setting unit 12 of the slave node notified of the ranking calculates the limited communication speed according to the following expression (2).

This function g (x) is a monotonically increasing function. Therefore, the higher the slave node, the lower the limited communication speed.

The actual transmission after the control communication speed is set through the above processing is performed as shown in FIG. The details are the same as in the first embodiment.

By suppressing the transmission amount of the high speed terminal as described above, it is possible to increase the transmission opportunity of the low speed terminal sharing the same band and reduce the difference in throughput between the terminals. Since the characteristic of the reduction is different from that of the first embodiment, it is more optimal than the first embodiment depending on the characteristics of the system.

<Third Embodiment>

Next, the operation of the third embodiment will be described.

This embodiment uses the ratio with the best communication speed (maximum communication speed) of the communication path, but is the same as the first embodiment, but a retransmission timer used for the CSMA (Carrier Sense Multiple Access) function instead of the unit time flow restriction. By changing the value, the transmission opportunity of the terminal is increased or decreased.

The system configuration according to the present embodiment is the same as that of the first and second embodiments, and has the configuration shown in FIGS. 1 and 2.

6 is a diagram showing the configuration of the slave node 1 according to the present embodiment.

In Fig. 6, reference numerals 11 to 14 are the same as the configuration of the slave node 1 described in the first embodiment, and reference numeral 15 sets a retransmission timer value (retransmission wait time) used for the CSMA function. And a retransmission timer value setting unit (retransmission waiting time setting unit).

Next, the operation will be described.

First, the communication speed setting unit 12 of the slave node 1 determines the communication speed in accordance with the situation of the communication path between the master node 2 and the start of communication.

And the timer coefficient is computed by following formula (3) from the determined communication speed.

Where h (x) is a monotonically decreasing function. For this reason, the timer count increases as the actual communication speed increases.

After determining the retransmission timer coefficient through the above process, the retransmission timer value setting unit 15 sets a value generated by multiplying the timer coefficient as a retransmission timer value as a value generated by a random number as a holding timer when a carrier of another node is detected. When the data transmission is suspended, the communication speed control unit 13 performs retransmission control based on the retransmission timer value set by the retransmission timer value setting unit 15.

By increasing or decreasing the value of the retransmission timer of the slave node as described above, it is possible to reduce the transmission opportunity of the high speed terminal, increase the transmission opportunity of the low speed terminal, and reduce the difference in throughput between the terminals.

Since the characteristics of the reduction are also different from those of the first and second embodiments, they are optimal depending on the characteristics of the system. In addition, the retransmission timer can be changed in a structure simpler than the restriction of the flow rate of the traffic performed in the first and second embodiments.

<Fourth Example>

Next, the operation of the fourth embodiment will be described.

This embodiment uses the ranking of the communication speeds of the entire terminals as in the second embodiment, but increases or decreases the transmission opportunity of the terminal by changing the retransmission timer value used for the CSMA function instead of the flow rate limitation of the unit time.

The system configuration according to the present embodiment is the same as that of the first to third embodiments, and has the configuration shown in Figs.

In addition, the structure of the slave node 1 is the structure shown in FIG. 6 similarly to 3rd Embodiment.

Also in this embodiment, the processing flow at the time of determining the communication speed that the slave node 1 performs with the master node 2 is as shown in FIG. 4 as in the second embodiment.

Next, the operation will be described.

In determining the communication speed, the slave node 1 and the master node 2 perform the operation of the flow of FIG. The details are the same as in the second embodiment.

And the retransmission timer coefficient is computed by following formula (4) from the determined communication speed.

Where I (x) is a monotonically decreasing function. For this reason, the higher the actual rank, the larger the timer count.

After determining the retransmission timer coefficient by the above process, the retransmission timer value setting unit 15 sets a value generated by multiplying the timer count as a retransmission timer value as a value generated by a random number as a holding timer when a carrier of another node is detected. When the data transmission is suspended, the communication speed control unit 13 performs retransmission control based on the retransmission timer value set by the retransmission timer value setting unit 15.

By increasing or decreasing the value of the retransmission timer of the slave node as described above, it is possible to reduce the transmission opportunity of the high speed terminal, increase the transmission opportunity of the low speed terminal, and reduce the difference in throughput between the terminals.

Since the characteristics of the reduction are also different from those of the first, second and third embodiments, they are optimal depending on the characteristics of the system. In addition, the retransmission timer can be changed in a structure simpler than the restriction of the flow rate of the traffic performed in the first and second embodiments.

In the first to fourth embodiments described above, the communication system including the data communication apparatus according to the present invention has been described. However, the data communication method according to the present invention can also be realized by the same processing procedure. .

Here, the characteristics of the present invention described above are summarized as follows.

In the communication system of the present invention, on an unstable transmission furnace in which the characteristics of the communication path change due to a positional relationship between terminals,

The plurality of communication devices connected on the transmission furnace determine the transmission timing of the data based on the detection result of the carrier signal of the other communication device and the retransmission timer which generates a random time for suspending and retransmitting the transmission by the detection result. Adjust and transmit and receive the corresponding data while preventing collision between signals,

In the communication method, the communication device establishes a logical star structure by setting one of the master node and the other node as the slave node to perform communication.

Each slave node calculates the ratio of its communication speed to the communication speed when the physical state is at its best state, calculates the throughput per unit time that should be maintained from the value of the ratio, and maintains the calculated throughput. Characterized in that it comprises a.

That is, in the communication system of the present invention, the ratio of the actual communication speed of the slave node and the best communication speed derived from the specification of the transmission path is the superiority of the own node, and each slave node communicates at the communication flow rate according to the superiority. To do.

In the communication system of the present invention, on an unstable transmission furnace in which the characteristics of the communication path change due to a positional relationship between terminals,

The plurality of communication devices connected on the transmission furnace have a mechanism for detecting carrier signals of other communication devices, and transmit data based on a retransmission timer that generates a random time for suspending and retransmitting transmissions based on the detection result. Adjust the timing to transmit and receive the corresponding data while preventing the collision between signals,

In the communication method, the communication device establishes a logical star structure by setting one of the master node and the other node as the slave node to perform communication.

Each slave node is provided with means for being notified that its communication speed is the Nth fastest among the communication speeds of all slave nodes sharing the communication band, and means for maintaining a predetermined throughput per unit time from the value of N. It is characterized by including.

In other words, the communication system of the present invention has an advantage that the actual communication speed of a slave node is the highest among terminals sharing a band, and each slave node communicates at a communication flow rate according to the superiority. .

In the communication system of the present invention, on an unstable transmission furnace in which the characteristics of the communication path change due to a positional relationship between terminals,

The plurality of communication devices connected on the transmission furnace have a mechanism for detecting carrier signals of other communication devices, and transmit data based on a retransmission timer that generates a random time for suspending and retransmitting transmissions based on the detection result. Adjust the timing to transmit and receive the corresponding data while preventing the collision between signals,

In the communication method, the communication device establishes a logical star structure by setting one of the master node and the other node as the slave node to perform communication.

Each slave node includes a means for calculating a ratio with a communication speed when its communication speed is in a physically best state, and increasing or decreasing the coefficient of the value of the retransmission timer according to the value of the ratio. do.

That is, in the communication system of the present invention, the ratio between the actual communication speed of the slave node and the best communication speed derived from the specification of the transmission path is taken as an advantage, and each slave node increases or decreases the retransmission timer value according to the advantage. .

In the communication system of the present invention, on an unstable transmission furnace in which the characteristics of the communication path change due to a positional relationship between terminals,

The plurality of communication devices connected on the transmission furnace have a mechanism for detecting carrier signals of other communication devices, and transmit data based on a retransmission timer that generates a random time for suspending and retransmitting transmissions based on the detection result. Adjust the timing to transmit and receive the corresponding data while preventing the collision between signals,

In the communication method, the communication apparatus establishes a logical star structure and performs communication by setting one of them as a master node and another node as a slave node.

Each slave node is provided with means for being notified that its communication speed is the Nth fastest among the communication speeds of all slave nodes sharing the communication band, and means for increasing or decreasing the coefficient of the value of the retransmission timer by the value of N. It is characterized by including.

In other words, the communication system of the present invention has an advantage in which the actual communication speed of the slave node is the highest among terminals sharing a band, and increases or decreases the retransmission timer value in accordance with the advantage.

As described above, according to a preferred embodiment of the present invention, by identifying how fast each slave node is compared to the ideal communication speed with the master node, and in the case of high speed, by limiting the flow rate according to the band, It is possible to provide a communication system more fair than usual for all the slave nodes that share.

In addition, according to a preferred embodiment of the present invention, each slave node knows how high speed the communication speed with the master node among all the slave nodes sharing the band, and in the case of high speed by limiting the flow rate according to the degree As a result, a more fair communication system can be provided for all slave nodes sharing a band.

In addition, according to a preferred embodiment of the present invention, it is determined how fast each slave node is compared to the ideal communication speed with the master node, and in the case of high speed, the length of the retransmission timer is increased according to the degree. By reducing the transmission opportunities of nodes in the network, it is possible to provide a more fair communication system for all slave nodes sharing a band.

In addition, according to a preferred embodiment of the present invention, each slave node knows how fast the communication speed with the master node is among all the slave nodes sharing a band, and if it is high speed, the length of the retransmission timer according to the degree. By decreasing the transmission opportunity of the own node by lengthening it, it is possible to provide a more fair communication system for all the slave nodes sharing the band.

Claims (14)

A data communication device for performing data transmission to a relay device, A communication speed recorder for recording a specific communication speed thereof; The communication speed used for data transmission to the relay device is determined between the relay device and the communication speed used for the data transmission to the relay device, and the specified communication speed and the relay device recorded in the communication speed recording unit. A communication speed setting unit that calculates a new communication speed equal to or less than the determined communication speed based on the determined communication speed determined between the communication speeds and sets the calculated new communication speed as the control communication speed; And a communication speed control unit for controlling the communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting unit. Data communication device. The method of claim 1, And the communication rate setting unit calculates the control communication rate based on a value obtained by dividing the specific communication rate by the determined communication rate. The method of claim 1, The communication speed recording unit, As the specific communication speed, record its maximum communication speed, The communication speed setting unit, And the control communication rate is calculated based on the determined communication rate determined between the maximum communication rate recorded in the communication rate recording unit and the relay device. A data communication device for performing data transmission to a relay device, A numerical value relating to the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting unit for receiving information from the relay device, calculating a new communication speed equal to or less than the determined communication speed based on the numerical information received from the relay device, and setting the calculated new communication speed as a control communication speed; Wow, And a communication speed control unit for controlling the communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting unit. Data communication device. The method of claim 4, wherein The relay device determines a communication speed used for data transmission between a plurality of data communication devices, The communication speed setting unit of each data communication device is Receiving, as the numerical information, speed level information indicating a speed level of the own determined communication speed with respect to the determined communication speed of another data communication device, and calculating the control communication speed based on the received speed level information. A data communication device. In the data communication apparatus which performs data transmission with respect to a relay apparatus, and withholds a data transmission in a fixed case and retransmits the data which suspended transmission after the predetermined retransmission waiting time passed, A communication speed recorder for recording a specific communication speed thereof; A communication speed setting unit for determining, with the relay device, a communication speed used for data transmission to the relay device before starting data transmission to the relay device; And a retransmission waiting time setting unit for setting the retransmission waiting time based on the specific communication speed recorded in the communication speed recording unit and the determined communication speed determined by the communication speed setting unit. The method of claim 6, And the retransmission waiting time setting unit sets the retransmission waiting time based on a value obtained by dividing the specific communication speed by the determined communication speed. The method of claim 6, The communication speed recording unit, As the specific communication speed, record its maximum communication speed, The retransmission waiting time setting unit, And the retransmission waiting time is set based on the determined communication speed determined between the maximum communication speed recorded in the communication speed recording unit and the relay device. In the data communication apparatus which performs data transmission with respect to a relay apparatus, and withholds a data transmission in a fixed case and retransmits the data which suspended transmission after the predetermined retransmission waiting time passed, Numerical information about the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. Communication speed setting unit for receiving from the relay device, And a retransmission waiting time setting unit for setting the retransmission waiting time based on the numerical information received by the communication speed setting unit. The method of claim 9, The relay device determines a communication speed used for data transmission between a plurality of data communication devices, The communication speed setting unit of each data communication device is Receiving, as the numerical information, rate level information indicating a rate level of its own determined communication rate relative to a determined communication rate of another data communication device, The retransmission waiting time setting unit of each data communication device is And the retransmission waiting time is set based on the speed level information received by the communication speed setting unit. In the data communication method of performing data transmission with respect to a relay apparatus, A communication speed recording step of recording a specific communication speed thereof; The communication speed used for data transmission to the relay device is determined between the relay device and the specific communication speed recorded by the communication speed recording step before the data transmission to the relay device starts. A communication rate setting step of calculating a new communication rate equal to or less than the determined communication rate based on the determined communication rate determined between the relay apparatus and setting the calculated new communication rate as the control communication rate; And a communication speed control step of controlling a communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting step. A data communication method. In the data communication method of performing data transmission with respect to a relay apparatus, A numerical value relating to the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting step of receiving information from the relay device, calculating a new communication speed equal to or less than the determined communication speed based on the numerical information received from the relay device, and setting the calculated new communication speed as a control communication speed; Wow, And a communication speed control step of controlling a communication speed of data transmission to the relay device such that the communication speed of data transmission to the relay device does not exceed the control communication speed set by the communication speed setting step. A data communication method. In the data communication method of performing data transmission with respect to a relay apparatus, the data transmission is suspended in a certain case, and retransmission of the data which suspended transmission after the predetermined retransmission waiting time passes, A communication speed recording step of recording a specific communication speed thereof; A communication rate setting step of determining, with the relay apparatus, a communication rate to be used for data transmission to the relay apparatus before starting data transmission to the relay apparatus; And a retransmission waiting time setting step of setting the retransmission waiting time based on the specific communication speed recorded by the communication speed recording step and the determined communication speed determined by the communication speed setting step. Way. In the data communication method of performing data transmission with respect to a relay apparatus, the data transmission is suspended in a certain case, and retransmission of the data which suspended transmission after the predetermined retransmission waiting time passes, Numerical information about the determined communication speed determined between the relay device and the communication speed used for data transmission to the relay device before the start of data transmission to the relay device. A communication speed setting step of receiving a message from the relay device; And a retransmission waiting time setting step of setting the retransmission waiting time based on the numerical information received by the communication speed setting step.